KR20140121503A - High frequency heat treatment device for minimizing the deformation of ring gear tooth - Google Patents

Abstract

The present invention relates to a high frequency heat treatment device for minimizing the deformation of ring gear teeth and, more specifically, to a high frequency heat treatment device for minimizing the size change of gear teeth formed on the surface of a ring gear during high-frequency induction heating of the ring gear. The high frequency heat treatment device for minimizing the deformation of ring gear teeth comprises: a rotatable pressing member (10) having a cylindrical shape, and vertically moved by an upper cylinder (12) to press the ring gear (1) from the upper part; a ring-shaped induction coil (20) for performing heat treatment in the gear side of the ring gear (1) with power received from a high frequency induction heating facility; a rotary gear (50) rotated by the rotation of a rotation motor (52); a rotatable rotary drum (40) vertically moved by a lower cylinder (46) to move the ring gear to the center of the induction coil, and having a gear (44) formed on the outer surface to be rotated by being meshed with the rotary gear; a fixed plate (30) on which the ring gear is mounted, and having a circular hole (31) formed at the center to pass the rotary drum (40); and a cooling water supply pipe (22) for supplying cooling water for cooling the induction coil and the pressing member.

Description

TECHNICAL FIELD [0001] The present invention relates to a high frequency heat treatment apparatus for minimizing deformation of a gear of a ring gear,

The present invention relates to a high frequency heat treatment apparatus for minimizing the deformation of gears of a ring gear, and more particularly, to a high frequency heat treatment apparatus for minimizing deformation of gears of a ring gear, Frequency heat treatment apparatus of a ring gear for minimizing the deformation of the dimensions of the ring gear.

"Gear" refers to a disk-shaped rotating body fitted to a shaft to transmit rotation or power between two or more rotating shafts. It is a mechanical element that can transmit movement or power. It is widely used in various machine structures because it is reliable in transmission of power or rotation, can be transmitted at an accurate speed ratio, is relatively simple in structure, has less power loss, and has a longer life span

In particular, "ring gear" means a ring-shaped gear without boss or arm. Gear teeth are formed on the outer surface or the inner surface of the ring gear.

1 is a perspective view of a general ring gear. And gear teeth are formed on the outer surface.

This part of the ring gear is subjected to heat treatment by a high frequency induction heating device for durability to harden the hardness by making a tissue transformation (texture change) from the ferrite + pearlite structure to the martensite structure.

In the conventional high-frequency heat treatment method of the ring gear, due to rapid heating of the ring gear and abrupt cooling, dimensional distortion occurs in this portion of the ring gear, and the defect rate of the product is very high. In order to compensate for this, after the heat treatment hardening depth of the ring gear is formed to be very large, the high frequency heat treatment process is further processed to compensate the dimensional deformation. However, this method has a problem in that it requires an additional processing cost, and thus has a disadvantage in that the heat treatment cost is excessive.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a high frequency heat treatment apparatus for minimizing deformation of gears of a ring gear.

The object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description

In order to achieve the above object, a high frequency heat treatment apparatus for minimizing deformation of a gear of a ring gear according to the present invention has a cylindrical shape and is vertically moved by an upper cylinder (12) 1) on the upper side and rotatable pressing member (10); A ring-shaped inductor coil 20 which receives electric power from the high frequency induction heating device and performs heat treatment on the gear side of the ring gear 1; A rotary gear 50 rotated by rotation of the rotary motor 52; A rotary drum 40 which is moved up and down by a lower cylinder 46 to move the ring gear to the center of the inductor coil and is rotatable with gears 44 formed on an outer surface thereof so as to be engaged with the rotary gear; A stationary plate (30) having a circular hole (31) formed at the center thereof to allow the rotary drum (40) to pass therethrough; And a cooling water supply pipe (22) to which cooling water for cooling the inductor coil and the pressure member is supplied.

According to a preferred embodiment, the high-frequency heat treatment of the ring gear is performed in a state of being vertically pushed by the pressing member and the rotary drum, so that the deformation of the gear of the ring gear is minimized.

According to a preferred embodiment of the present invention, the lower surface of the pressing member is provided with a groove 12 corresponding to the upper inner side edge of the ring gear, and on the upper surface of the rotary drum, An annular groove (42) is formed in the annular groove, and an annular groove (32) for stably holding the ring gear is formed on the circular hole side surface of the stationary plate.

According to a preferred embodiment of the present invention, a plurality of vertical guide bars 48 are vertically guided by the through holes formed in the lower fixed frame 49, while being fixed to the lower side of the rotary drum.

As described above, in the ring gear high-frequency heat treatment apparatus of the present invention, the high-frequency heat treatment of the ring gear is performed in the state that the ring gear is vertically pushed by the upper pressing member and the lower rotating drum, There are advantages.

As a result, the heat treatment failure rate of the ring gear can be minimized, and further processing steps of the ring gear are not required, and the material cost can be reduced, which is very economical.

1 is a perspective view of a ring gear;
FIG. 2 is a perspective view of a high-frequency thermal processing apparatus for a ring gear according to a preferred embodiment of the present invention, before and after performing a high-frequency heat treatment of the ring gear. FIG.
Fig. 3 is a perspective view of a high-frequency heat treatment apparatus for a ring gear according to a preferred embodiment of the present invention, in which the ring gear is subjected to high-frequency heat treatment.

Hereinafter, a high-frequency thermal processing apparatus for minimizing the deformation of the gear of the ring gear of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of the ring gear, and it can be seen that this (or "tooth") portion is formed on the outer surface.

2 and 3 are perspective views of a high-frequency thermal processing apparatus for a ring gear according to a preferred embodiment of the present invention. Fig. 2 shows a state before and after a high-frequency heat treatment of a ring gear, Is being performed.

The ring gear high-frequency heat treatment apparatus of the present invention comprises a pressing member 10, an inductor coil 20, a fixing plate 30, a rotary drum 40, and a rotary gear 50.

The pressing member 10 is a portion for pressing the ring gear 1 from the upper side. And is vertically moved by the upper cylinder 12. As shown in Fig. The ring gear 1 is pressed up and down by the pressing member 10 and the rotary drum 40 during the high frequency heat treatment of the ring gear so that the lower rotary drum 40 is rotated The pressing member is rotated together with the ring gear 1. That is, the pressing member is driven and rotated. However, it is needless to say that the present invention is not limited to this, and may be rotated by a separate rotating means.

Preferably, the lower surface of the pressing member 10 is formed with a groove 12 corresponding to the upper inner side edge of the ring gear 1 as shown. This is to minimize lateral movement when the ring gear 1 is rotated.

The inductor coil 20 has a ring shape. When the ring gear 1 is located inside the inductor coil, power is supplied from the high frequency induction heating apparatus, and the gear side of the ring gear 1 is subjected to heat treatment. A space is formed in the inside of the inductor coil 20. After the high-frequency heat treatment, cooling water is supplied to the space portion from the outside through the cooling water supply pipe 22 to cool the inductor coil.

The stationary plate 30 is a portion for placing the ring gear on the upper portion, and a circular hole 31 is formed at the center so that the rotary drum can pass through. 2), the rotary drum 40 is moved upward by the lower cylinder 46 to rotate the ring gear 1 in the inward direction of the inductance groove 32 of the fixed plate 30, And is positioned inside the coil 20 (see Fig. 3). After the high-frequency heat treatment and cooling are finished, the ring gear 1 is caught by the stationary plate 30 when the rotary drum 40 is moved downward by the lower cylinder 46 again (see FIG. 2). At this time, the operator takes out the high-frequency heat-treated ring gear 1.

On the other hand, as shown in the drawing, an orbit groove 32 for stably holding the ring gear is formed on the side surface of the circular hole 31 of the fixed plate 30.

The rotary gear 50 is a portion that is rotated by the rotational force of the rotary motor 52 and is a portion that is gear-engaged with the rotary drum 40 to transmit the rotary force to the rotary drum 40.

The rotary drum 40 is moved up and down by the lower cylinder 46 to move the ring gear 1 to the inside of the inductor coil 20 and to rotate the gear 44 are formed. That is, the rotary drum 40 is rotated by the rotational force of the rotary gear, and the ring gear 1 positioned on the rotary drum and the pressing member 10 pressing on the rotary drum 40 rotate as the rotary drum 40 rotates And rotate together.

A plurality of vertical guide bars 48 vertically guided by the through holes formed in the lower fixing frame 49 are formed on the lower side of the rotary drum 40 so as to prevent the vertical movement of the rotary drum 40 at the same time.

Preferably, on the upper surface of the rotary drum, as shown in the drawing, an installation groove 42 corresponding to the lower inner side edge of the ring gear is formed, thereby minimizing lateral movement of the ring gear.

As described above, the high-frequency heat treatment apparatus of the ring gear of the present invention has an advantage that the deformation of the gear of the ring gear is minimized by subjecting the ring gear to high-frequency heat treatment in the state of being vertically pushed by the upper pressing member and the lower rotating drum have.

After the high-frequency heat treatment is completed, the cooling water is supplied from the outside through the cooling water supply pipe 22, and the inductor coil 20, the pressing member 10, and the rotary drum 40 are cooled.

2 and 3, the heat treatment process of the ring gear will be described again.

First, the ring gear 1 having a gear on its outer surface is placed on the fixed plate 30 (Fig. 2). Thereafter, the rotary drum 40 is moved upward by the lower cylinder 46 to place the ring gear 1 in the middle of the inductor coil 20, and the upper cylinder 14 presses the pressing member 10 So that the ring gear 1 is pressed downward.

In this state, as the rotary motor 52 rotates, the rotary gear 50 rotates, so that the rotary drum 40, which is gear-engaged with the rotary gear 50, rotates. The ring gear 1 is vertically pressed by the upper pressing member 10 and the lower rotating drum 40 and the pressing force is transmitted to the pressing member 10 together with the ring gear 1 by the rotational force of the rotary drum 40, (Fig. 3).

In the rotating state, the high-frequency heat treatment of the ring gear 1 is performed by the inductor coil 20.

After the high-frequency heat treatment of the ring gear 1, the cooling water is supplied from the outside through the cooling water supply pipe 22 to cool the inductor coil 20, the pressing member 10, and the rotary drum 40.

When the cooling step is completed, the pressing member 10 is moved upward by the upper cylinder 14, and the rotary drum 40 is moved downward by the lower cylinder 46. The ring gear 1 on the rotary drum is caught by the catch groove 32 of the fixed plate 30. [ Then, the operator takes out the high-frequency heat-treated ring gear 1.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention may be embodied otherwise without departing from the spirit and scope of the invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention, but are intended to be illustrative, and the scope of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the claims should be construed as being included in the scope of the present invention.

1: ring gear
10: pressing member 12: groove
14: upper cylinder
20: inductor coil 22: cooling water supply pipe
30: Fixing plate
31: Circular ball 32: Anchored groove
40: rotary drum 42:
44: gear 46: lower cylinder
48: guide bar 49: stationary frame
50: rotary gear 52: rotary motor

Claims (5)

A high frequency heat treatment apparatus for minimizing deformation of gears of a ring gear,
A pressing member (10) having a cylindrical shape and being vertically moved by the upper cylinder (12) to press the ring gear (1) from the upper side;
A ring-shaped inductor coil 20 which receives electric power from the high frequency induction heating device and performs heat treatment on the gear side of the ring gear 1;
A rotary gear 50 rotated by rotation of the rotary motor 52;
A rotating drum 40 which is moved up and down by a lower cylinder 46 to move the ring gear to the center of the inductor coil and is rotatable with gears 44 formed on an outer surface thereof so as to be engaged with the rotating gear;
A stationary plate (30) having a circular hole (31) formed at the center thereof to allow the rotary drum (40) to pass therethrough; And
And a cooling water supply pipe (22) to which cooling water for cooling the inductor coil and the pressure member is supplied. The method according to claim 1,
Wherein high-frequency heat treatment of the ring gear is performed in a state in which the ring gear is vertically pushed by the pressing member and the rotary drum, so that the deformation of the gear of the ring gear is minimized. The method according to claim 1,
A groove (12) corresponding to an upper inner side edge of the ring gear is formed on a lower surface of the pressing member,
Wherein an upper surface of the rotary drum is provided with an installation groove (42) corresponding to a lower inner side edge of the ring gear. The method according to claim 1,
Wherein an annular groove (32) for stably holding the ring gear is formed on the circular hole side surface of the stationary plate. The method according to claim 1,
A rotary drum fixedly installed on a lower side of the rotary drum,
And a plurality of vertical guide bars (48) vertically guided by the through holes formed in the lower fixed frame (49).

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